chapter 9 – electro-opticslight.ece.illinois.edu/ece460/pdf/electro-accousto_short_b.pdf ·...
TRANSCRIPT
![Page 1: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/1.jpg)
Chapter 9 – Electro-Optics
Gabriel Popescu
University of Illinois at Urbana‐Champaigny p gBeckman Institute
Quantitative Light Imaging Laboratory
Electrical and Computer Engineering, UIUCPrinciples of Optical Imaging
Quantitative Light Imaging Laboratoryhttp://light.ece.uiuc.edu
![Page 2: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/2.jpg)
Electro‐Optics
ECE 460 – Optical Imaging
1st order effect:
Electro Optics
1 ( ) (0)wi ii jj ijk j kP r E E
DC
0
2 2 20 0 ( )i i i i j ijk j kD n E n n r E E DC
11 zO0 0 ( )i i i i j ijk j k
2 4 20 0 0 0 12 3 0 0 133
6 5y Dc e z DCDx n n r E E n n r E E
2 40 0 0 0 213
4
0x DcDy n n r E E 0r kDP
Chapter 9: Electro‐Optics 2
42
0 e zDz n E53 0r
![Page 3: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/3.jpg)
226 ELECTRO-OPTICS
By using the contracted indices (7.1-11), the equation of the index ellipsoid in the presence of an electric field can be written
(:~ + rlkEk ) x2
+ (:; + r2kEk) y2 + (:; + r3kEk) Z2 (7.2-3)
+2yzr4k Ek + 2zxr5kEk + 2xyr6kEk = 0
where Ek (k = 1,2,3) is a component of the applied electric field and summation over repeated indices k is assumed. Here 1,2,3 correspond to the principal dielectric axes x, y, z, and nx ' ny, nz are the principal refractive indices. This new ellipsoid (7.2-3) reduces to the unperturbed ellipsoid (7.1-1) when Ek = O. In general, the principal axes of the ellipsoid (7.2-3) do not coincide with the unperturbed axes (x, y, z).
A new set of principal axes can always be found by a coordinate rotation, which is known as the principal-axis transformation of a quadratic form. The dimensions and orientation of the ellipsoid (7.2-3) are, of course, dependent on the direction of the applied field as well as the 18 matrix elements rlk. We have argued above that in crystals possessing an inversion symmetry (centrosymmetric), rlk = O. The form, but not the magnitude, of the tensor r1k Can be derived from symmetry considerations, which dictate which of the 18 coefficients r1k are zero, as well as the relationships that exist between the remaining coefficients. In Table 7.2 we give the form of the electro-optic tensor for all the noncentrosymmetric crystal classes. The electro-optic coefficients of some crystals are listed in Table 7.3.
7.2.1. Example: 1be Electro-optic Effect in KH 1 P04
Consider the specific example of a crystal of potassium dihydrogen phosphate (KH2P04 ), also known as KDP. The crystal has a fourfold axis of symmetry, which by strict convention is taken as the z (optic) axis, as well as two mutually orthogonal twofold axes of symmetry that lie in the plane normal to z. These are designated as the x and y axes. The symmetry group of this crystal is 42m. Using Table 7.2, we write the electro-optic tensor in the form
0 0 0 0 0 0 0 0 0
rij = r41 0 0 (7.2-4)
0 r41 0 0 0 r63
'1 I I I I
Table 7.2. Electro-optic: Coefficients in Contracted Notation for All Crystal Symmetry OassesQ
Centrosymmetric (I, 2/m, mmm, 4/m, 4/mmm, 3, 3m 6/m,6/mmm, m3, m3m): 000 000 000 000 000 000
Triclinic:
'Il '12 '13
'21 '22 '23
'31 '32 '33
'41 '42 '43
'51 '52 '53
'61 '62 '63
Monoclinic:
2 (2 II X2) 2 (2" X3) 0 '12 0 0 0 '13
0 '22 0 0 0 '23 0 '32- 0 0 0 '33
'41 0 '43 '41 '42 0 0 '52 0 '51 '52 0
'61 0 '63 0 0 '63
m (m J. X2) m (m J. X3)
'Il 0 '13 'II '12 0
'21 0 '23 '21 '22 0 '31 0 '33 '31 '32 0 0 '42 0 0 0 '43
'51 0 '53 0 0 '53 0 '62 0 '61 '62 0
Orthorhombic:
222 2mm
0 0 0 0 0 '\3 0 0 0 0 0 '23 0 0 0 0 0 '33
'41 0 0 0
0 '42 0 '52 0
'51 0 0 0 0 '63 0 0 0
227
![Page 4: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/4.jpg)
Table 7.1- ( Continued).
Tetragonal: 4 4
0 0 '13 0 0 '13 0 0 0 '13 0 0 -'13 0
0 0 '33 0 0 0 0
0 '41 -'51 0 '41 '41 '51
0 '51 '41 0 0 '51 -'41
0 0 0 0 0 '63 0
4mm 42m (211 XI)
0 0 '\3 0 0 0 0 0 '\3 0 0 0 0 0 '33
0 0 0
0 '51 0 '41 0 0
0 0 0 '41 0 '51
0 0 0 0 0 '63
Trigonal: 3 32
'II -'22 '13 '11 0 0 -'II '22 '\3 -'11 0 0
0 0 '33 0 0 0 '41 '51 0 '41 0 0
'51 -'41 0 0 -'41 0
-'22 -'II 0 0 -'11 0
3m (m .1 XI) 3m (m .1 X2)
0 -'22 '13 '11 0 '13 0 '22 '13 -'II 0 '13 0 0 '33 0 0 '33
0 '51 0 0 '51 0
'51 0 0 '51 0 0
-'22 0 0 0 -'11 0
228
"r
422
0 0 0 0 0 0 0 0
-'41 0
0 0
THE LINEAR ELECTRO-OPTIC EFFECT 229
Table 7.2. ( Continued).
Hexagonal: 6 6mm 622
0 0 '\3 0 0 '13 0 0 0 0 0 '13 0 0 '\3 0 0 0 0 0 '33 0 0 '33
0 0 0
'41 '51 0 0 '51 0 '41 0 0
'51 -'41 0 '51 0 0 0 0 0 0 0 0
0 -'41 0
0 0 0
6 6m2 (m .L XI) 6m2 (m.l X2)
'11 -'22 0 0 -'22 0 'II 0 0 -'11 '22 0 0 '22 0 -'11 0 0
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
-'22 -'II 0 -'22 0 0 0 -'11 0
Cubic:
43m,23 432 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
'41 0 0 0 0 0 0 '41 0 0 0 0 0 0 '41
0 0 0
°The symbol over each matrix is the conventional symmetry-group designation.
so that the only nonvanishing elements are '41 = '52 and '63' Using Eqs. (7.2-3) and (7.2-4), we obtain the equation of the index ellipsoid in the presence of a field E(Ex' Ey ' Ez) as
where the constants involved in the first three terms do not depend on the field and, since the crystal is uniaxial, are taken as nx = ny = no' nz = ne' We thus find that the application of an electric field causes the appearance of "mixed" terms in the equation of the index ellipsoid. These are the terms with xv. xz. vz. This means that the major axes of the ellipsoid, with a field
![Page 5: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/5.jpg)
Electro‐Optics
ECE 460 – Optical Imaging
Electro Optics2 4
0 0 63 0Dcn n r E 4 2
0 0 63 02
0
0 0ij Dc
e
n r E n
n
' ( ) ( )ij W W 2
0cos sin cos sinn 2
0sin cos sin cosn
2 0 0n ib0
20 0
2
0 0
0 0 ;4 ij
n
n
i
40 63 ( )zn r E DC
3
20 0 en
Chapter 9: Electro‐Optics
biaxial crystal
![Page 6: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/6.jpg)
Modulators
ECE 460 – Optical Imaging
Modulators
Eg (tetra ) only three nonzero elementsKDP 42m 41 52 63, ,r r rg ( ) yKDP 41 52 63
2 20 ;xn n
20 0 0 0 0 02 2
0 0
1 112 2xn n n n n n n
n n
1
012yn n
30 0 63
1 ( )2 zn n r E DC
012y r
4Chapter 9: Electro‐Optics
![Page 7: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/7.jpg)
Modulators
ECE 460 – Optical Imaging
Modulators
32 2( ') ( )n n d n r E DC d 0 63
0 0( ') ( )x y zn n d n r E DC d
n
V
03
0 632V
n r
linearize
2sinT 2sin VQW T
linearize
Adds2 sin
4 2QW T
V
Add
5Chapter 9: Electro‐Optics
![Page 8: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/8.jpg)
Modulators
ECE 460 – Optical Imaging
Modulators
Let sinm mV V t m m
2sin sin4 2 m mT t 4 2
1 11 cos sin 1 sin sint t 1 cos sin 1 sin sin2 2 2m m m mt t
linear
11 1 sin2m m m mT t
6Chapter 9: Electro‐Optics
![Page 9: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/9.jpg)
Quadratic (Kerr)
ECE 460 – Optical Imaging
Quadratic (Kerr)
( ) 1 ( ) ( ) ( )P E E DC E DC( )
0
1 ( ) ( ) ( )i ii jj ijk j k eP s E E DC E DC
7Chapter 9: Electro‐Optics
![Page 10: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/10.jpg)
Applications of EO
ECE 460 – Optical Imaging
Applications of EO
longitudinalg transverse For LiNiO3 :
modulators
30 0 13
1n n n r E 0 0 13
30 0 13
212
x
y
n n n r E
n n n r E
333
212z e en n n r E
30 0 13
0
2 n L n r Vv
Ed3
0 13
vVn r
Phase mod(indep. of polariz.)
8
0Ed
Chapter 9: Electro‐Optics
![Page 11: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/11.jpg)
Chapter 9 – Acousto-optics
Gabriel Popescu
University of Illinois at Urbana‐Champaigny p gBeckman Institute
Quantitative Light Imaging Laboratory
Electrical and Computer Engineering, UIUCPrinciples of Optical Imaging
Quantitative Light Imaging Laboratoryhttp://light.ece.uiuc.edu
![Page 12: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/12.jpg)
Acousto‐optics
ECE 460 – Optical Imaging
Acousto optics
2 2P S E 2 20i j i ijkl kl j
jklP n n p S E
12 6 • ac wave:x
S S12 613 523 4
• ac wave: z 13 5S S
( ) cos( )U z t xA t kz ( , ) cos( )U z t xA t kz
Chapter 9: Acousto‐optics 10
![Page 13: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/13.jpg)
Chapter 1: Introduction 11
![Page 14: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/14.jpg)
Acousto‐optics
2kK
Acousto optics
k1 k2
K
1k
02 sinnk K
0 2 /2 /
kK
sin ;B Bragg angle
![Page 15: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/15.jpg)
![Page 16: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/16.jpg)
Acousto‐optics
ECE 460 – Optical Imaging
Acousto optics
( )ll k k 0 0( )small k k
Δk ΔvDopplerShift sKv
Δk Δv
Quantum mechanics
'k k '
conservation of momentumconservation of energymechanics ' conservation of energy
Chapter 9: Acousto‐optics 13
![Page 17: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/17.jpg)
Anisotropic media
ECE 460 – Optical Imaging
Anisotropic media
'k k 'k
k
'n-different - negative
k
'sin ' sin ; 'k k
2 ' 2 2 20 0
2 ' 2 2sin ' sin ;n n
2
0sin ' sin' '
nn n
wavelength of sound
Chapter 9: Acousto‐optics 14
![Page 18: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/18.jpg)
Anisotropic
ECE 460 – Optical Imaging
Anisotropic
C
Ex:
k'
Ck - (e)
'k - scattered in prop. Plane – (o)
'k (o)
0
0sin ' sin
'en
n n
0 '2 2
' ,
0
00
0
en n
0 0
0 0e en n n n
Chapter 9: Acousto‐optics 15
,2 2
0
0 en n
0 0e e
![Page 19: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/19.jpg)
Small angle Scattering
ECE 460 – Optical Imaging
Small angle Scattering
2sin ( )scattI L sin ( )inc
LI
3/2( )k 3/20 1 2
1 2
( )4 cos cos
i ke jijkek n n e p S e
Kin. Energy/ V = ½ Wtotal
1 2 1 1Usv
12ac sI v 2 2 3 21 1| | [ | |]
2 2s sU v u v Ut
US U 231I S
Chapter 9: Acousto‐optics 16
z 312ac sI v S
![Page 20: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/20.jpg)
Small angle Scattering
ECE 460 – Optical Imaging
Small angle Scattering
2IS3/2
0 1 2( ) 2k n n IP 32 ac
s
ISv
0 1 23
1 2
( ) 24 cos cos
ac
s
k n n IPv
Small cos 1
26
3s
n pMv
ps
table
3/2 30 1 2( ) 2s ack n n v M I MI0 1 2
6 3( ) 2
4s ac
s
k n n v M In v
02 acMI
Chapter 9: Acousto‐optics 17
![Page 21: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/21.jpg)
Small angle Scattering
ECE 460 – Optical Imaging
Small angle Scattering
Detuning: sin B g sin2B k
2 1 2sin sin ; Bk
1 1 2 2sin sin( ) 2 sin
( ) cos cos
k kBragg k
k k
1 1 1 2 2 2
1 2
1 2
( ) cos cos
( ) (cos cos )
k k
k
1 2( ) ( )
2 sin Bk 22
22 sin 1 ;
2scatI LI
22 2 1
2s
Chapter 9: Acousto‐optics 18
22 21
2incI
2
![Page 22: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/22.jpg)
Finite Beams
ECE 460 – Optical Imaging
Finite Beams
A’
B’
0
2 ;nw L
B
size of acoustic beam
; 1 ;2 2L
2 2L
0
0 0 0
2 cos 2 4 coss ss
nv vfnw w
- Full12sv
0 0 0 2
0
1 ;fW
0
2 cos( ) snvfL
or
19Chapter 9: Acousto‐optics
0
! Not overlap with undiffracted order
![Page 23: Chapter 9 – Electro-Opticslight.ece.illinois.edu/ECE460/PDF/Electro-accousto_short_b.pdf · Chapter 9: Electro‐Optics biaxial crystal. Modulators ECE 460 –Optical Imaging Eg](https://reader030.vdocuments.net/reader030/viewer/2022040410/5ed1d8bdf21d695a92225c2b/html5/thumbnails/23.jpg)
N spots
ECE 460 – Optical Imaging
N spots
0 0
2 cos 2f nWN
0
2W f N
02 cos 2snv 2 sv
f 2B
sf
nv ; cond B
0 0
2 sf
L nv
2
0 0
2f nf L
20Chapter 9: Acousto‐optics